discover a revolutionary
concept of creating

wind energy

introducing the world’s first self adapting
aerodynamic surface

Have you ever asked why evolution invented the feather?

Of course it has some effect in keeping the body warm while providing a lightweight structure allowing birds to fly. But feathers are more than just a cover for birds skin – they have a very important functionality controlling the aerodynamics around a birds body and wings. In fact they build a passive flow regulation system enabling the bird to increase lift and reduce drag.

Why are rigid blades bound to physical limitations?

Rigid airfoils – no matter how well they are streamlined – have the physical limitation to exploit only a statistical mean in an optimal aerodynamic stage. They cannot cope with the dynamic nature of fluid matter, which demands for every single aerodynamic stage an individual solution. A static object cannot deliver this flexibility.

Our answer: Passive dynamic shape-shifting

AF-AX technology represents the technical adaptation of the feather coating enabling rotor blades to better interact with variations in the surrounding air flows. The surface can passively follow the demands of the air stream. This creates a higher performance of the rotor blade, which leads to an increased and more sustainable power output.

Main features of our surface technology

improving aerodynamics for a better perfomance gain.

Highly adaptive on rough terrain

Rotorblades adapt to fluctuations in wind conditions allowing efficient surface adjustments up to the smallest vortex

Increased power density

Our adaptive rotor blades allow a higher power output per unit and a higher density of wind turbines per area

Substantially low wind sensitivity

A wider operation range enables turbines to react on the smallest gusts. This makes wind energy profitable even on inland